Comparison of Hectospec Virial Masses with SZE Measurements

TL;DR

This study compares virial masses of galaxy clusters with their SZE signals, finding a strong correlation but a shallower scaling relation than predicted, highlighting the need for further detailed analysis.

Contribution

First observational comparison of virial masses with SZE signals, revealing a correlation and discrepancies with theoretical models.

Findings

Strong correlation between virial mass and SZE signal

Observed scaling slope is shallower than theoretical prediction

Significant intrinsic scatter in the mass-SZE relation

Abstract

We present the first comparison of virial masses of galaxy clusters with their Sunyaev-Zel'dovich Effect (SZE) signals. We study 15 clusters from the Hectospec Cluster Survey (HeCS) with MMT/Hectospec spectroscopy and published SZE signals. We measure virial masses of these clusters from an average of 90 member redshifts inside the radius $r_{100}$. The virial masses of the clusters are strongly correlated with their SZE signals (at the 99% confidence level using a Spearman rank-sum test). This correlation suggests that $Y_{SZ}$ can be used as a measure of virial mass. Simulations predict a powerlaw scaling of $Y_{SZ}\propto M_{200}^\alpha$ with $\alpha\approx$1.6. Observationally, we find $\alpha$=1.11$\pm$0.16, significantly shallower (given the formal uncertainty) than the theoretical prediction. However, the selection function of our sample is unknown and a bias against less massive clusters cannot be excluded (such a selection bias could artificially flatten the slope). Moreover, our sample indicates that the relation between velocity dispersion (or virial mass estimate) and SZE signal has significant intrinsic scatter, comparable to the range of our current sample. More detailed studies of scaling relations are therefore needed to derive a robust determination of the relation between cluster mass and SZE.